TY - BOOK
T1 - Oak Ridge National Laboratory's Strategic Research and Development Insights for Digital Twins
AU - Al Najjar, Anees
AU - Anantharaj, Valentine
AU - Asthagiri, Dilip
AU - Badalassi, Vittorio
AU - Balaprakash, Prasanna
AU - Beck, Tom
AU - Brewer, Wesley
AU - Cabrera, Anthony
AU - Cheng, Jiahao
AU - De, Debraj
AU - Fernandez-Zelaia, Patxi
AU - Georgiadou, Antigoni
AU - Ghosh, Swarnava
AU - Gunaratne, Chathika
AU - Hauck, Cory
AU - Jain, Prashant
AU - Kapadia, Anuj
AU - Kiran, Mariam
AU - Kotevska, Olivera
AU - Lu, Dan
AU - Lupo-Pasini, Massimiliano
AU - Mayeur, Jason
AU - Melin, Alexander
AU - McDonnell, Marshall
AU - Miniskar, Narasinga Rao
AU - Muhlheim, Michael
AU - Ngo, Van
AU - Nutaro, James J.
AU - Omitaomu, Femi
AU - Oral, Sarp
AU - Ramuhalli, Pradeep
AU - Rao, Nageswara
AU - Rosso, Diego
AU - Shankar, Mallikarjun (Arjun)
AU - Sircar, Arpan
AU - Smith, Jeremy
AU - Malviya Thakur, Gautam
AU - Vasudevan, Rama K.
AU - Venkatakrishnan, S. V.
AU - Villez, Kris
AU - Wang, Feiyi
AU - Widener, Patrick
AU - Wang, Ross
AU - Xu, Haowen
AU - Zhang, Guannan
AU - Zhang, Neil
AU - Ziabari, Amirkoushyar
PY - 2024/7
Y1 - 2024/7
N2 - Oak Ridge National Laboratory (ORNL) is pleased to provide our response to the NITRD RFI on Digital Twins Research and Development. Digital twins are virtual representations of physical systems, leveraging real-time data to simulate and predict behaviors. ORNL is advancing digital twin technology across various disciplines, including neutron scattering, networking, science ecosystems, supercomputing, secure facilities, mobility technologies, materials design and discovery, power systems, fusion reactors, biological sciences, and earth observation. These efforts aim to enhance scientific research, operational efficiency, and decision-making processes. ORNL facilities, such as the High Flux Isotope Reactor (HFIR), Grid-C, Spallation Neutron Source (SNS), and Oak Ridge Leadership Computing Facility (OLCF), provide the infrastructure to develop and demonstrate these digital twin technologies. In this document, we lay out key challenges, research gaps, and future opportunities based on our experience with digital twins that aim to serve as useful contributions towards a National Digital Twins R&D Strategic Plan. In the remaining document, we address nine of the thirteen topic areas specified in the RFI.
AB - Oak Ridge National Laboratory (ORNL) is pleased to provide our response to the NITRD RFI on Digital Twins Research and Development. Digital twins are virtual representations of physical systems, leveraging real-time data to simulate and predict behaviors. ORNL is advancing digital twin technology across various disciplines, including neutron scattering, networking, science ecosystems, supercomputing, secure facilities, mobility technologies, materials design and discovery, power systems, fusion reactors, biological sciences, and earth observation. These efforts aim to enhance scientific research, operational efficiency, and decision-making processes. ORNL facilities, such as the High Flux Isotope Reactor (HFIR), Grid-C, Spallation Neutron Source (SNS), and Oak Ridge Leadership Computing Facility (OLCF), provide the infrastructure to develop and demonstrate these digital twin technologies. In this document, we lay out key challenges, research gaps, and future opportunities based on our experience with digital twins that aim to serve as useful contributions towards a National Digital Twins R&D Strategic Plan. In the remaining document, we address nine of the thirteen topic areas specified in the RFI.
KW - 97 MATHEMATICS AND COMPUTING
U2 - 10.2172/2439867
DO - 10.2172/2439867
M3 - Commissioned report
BT - Oak Ridge National Laboratory's Strategic Research and Development Insights for Digital Twins
CY - United States
ER -